Work holder device



y 10, 1951 c. w. BARKER 2,559,925

WORK HOLDER DEVICE Filed Jan. 29, 1945 3 Sheets-Sheet l 7* INVENTOR.

97mm WBarJrer 772. m

AT TORNEY July 10, 1951 c, w, BARKER 2,559,925

WORK HOLDER DEVICE Filed Jan. 29, 1945 3 Sheets-Sheet 2 211 C F101) FIG-6 INVENTOR.

Clemon WBarker BY ATTORNEV Filed Jan. 29, 1945 3 Sheets-Sheet 3 y 10, 1951 c. w. BARKER 2,559,925

WORK HOLDER DEVICE INVENTOR.

(Demon W. Barker ATTORNEY.

Patented July 10, 1 951 WORK HOLDER DEVICE Clemon W. Barker, Wichita, Kans., assignor, by

mesne assignments, to Wilton Tool Manufacturing 00., Chicago, 111., a copartnership Application January 29, 1945, Serial No. 575,051 7 Claims. (01. 287-12) My invention relates to an improvement in work holding devices, and is an improvement over my Patent Number 2,354,937, hearing date August 1, 1944.

The object of the present invention is to provide a work holding device having a ball and socket as means for universal adjustment of the work holding element, and the new improvement lies in a more secure means of holding the ball, and improved methods of applying pressure to the ball. The present improvement also includes means of adjustment governing the application of pressure to the ball. These and other objects will be more fully described as this description progresses.

Now referring to the accompanying drawings; Fig. l is a side View of the mechanically operated work holding device.

Fig. 2 is a side View of the same device as shown in Fig. 1, except that the device is turned ninety degrees from that shown in Fig. 1.

Fig. 3 is a top plan view of the work holder device as shown in Fig. 1.

Fig. 4 is a vertical sectional view through the work holder device, the View being taken along the line IV-IV in Fig. 2, and looking in the direction of the arrows.

Fig. 5 is an enlarged detail sectional view of that portion of the device contained in the circle A in 4.

Fig. 6 is a detail sectional view through a portion of the work holder device, the vieW being taken along the line VIVI in Fig. 5 and looking in the direction of the arrows.

Fig. "7 is an enlarged detail sectional view of that part of the work holder device contained in the circle B in Fig. 4.

Fig. 8 is a side view of the hydraulically operated work holder device.

Fig. 9 is a side view of the hydraulically 0perated work holder device, the device being turned ninety degrees from that shown in Fig. 8.

Fig. 10 is a stop plan view of the hydraulically operated work holder device.

Fig. 11 is a vertical sectional 'view of the hydraulically operated work holder device, the view being taken along the line XIXI in Fig. 9 and looking in the direction. of the arrows.

Fig. 12 is bottom plan view of the cap element of the hall and socket arrangement.

Fig. 13 is a top plan view of the ball engaging plunger shown in Fig. 11.

Fig. 14 is a bottom plan view of the ball engaging plunger shown in Fig. 11.

Fig. 15 is a detail side view of the ball engaging plunger shown in Fig. 11.

Fig. 16 is a side view of a modified form of the hydraulically operated work holder device.

Fig. 17 is a side View of the hydraulically operated work holder device, the device being turned ninety degrees from that shown in Fig. 16.

Fig. 18 is a top plan view of the hydraulically operated work holder device shown in Fig. 16.

Fig. 19 is a vertical sectional View through the hydraulically operated work holder device, the view being taken along the line XIV-XIV in Fig. 16 and looking in the direction of the arrows.

Fig. 20 is a top plan view of elevatable ball seat element shown in Fig. 19.

Fig. 21 is a bottom plan view of the elevatable ball seat element shown in Fig. 19.

Fig. 22 is a top plan view of the plunger element that engages and raises the elevatable ball seat element shown in Fig. 19.

Fig. 23 is a side view of the plunger element that engages and raises the elevatable ball seat element shown in Fig. 19.

Fig. 24 is a bottom plan View of the plunger element that engages and raises the elevatable ball seat element shown in Fig. 19.

Similar numerals of reference designate the same parts throughout the several figures of the drawings.

In the drawings, Figures 1 to 7 inclusive, is shown the mechanically operated work holder device as having a foot or base element 25, on which is integrally formed a vertically positioned standard 26 having a bore 21 that is positioned on the vertical axis of the standard 26 and extends from end to end thereof and also passes through the foot or base member 25.

Around the upper end of the standard 26 and tightly fitted thereon is a sleeve element 28 that is rigidly fixed to the standard 26 by means of pins that are passed through the wall of the sleeve 28 and the ends of the pins 29 being entered into holes in the standard 26 as shown.

Beneath the sleeve 23 and revolvably positioned around the standard 25 is a collar 30 that engages the bottom edge of the sleeve 28 and the outside edge of the collar 38 extends beyond the outside surface of the sleeve 28. The outer edge of the collar til is provided with a series of holes to receive cap screws 3! as will later be described.

Resting on top of sleeve 28 and upper end of the standard 25 is a ball rest element 32 that is provided with a depression 33 and around the upper edge of the depression 33 is a ball seat 34 on which is seated a ball 35. The under side of 3 the ball rest element is provided with a radially disposed slot 35. Rigidly set in the upper end of the sleeve 28 is an upwardly projecting pin 31 that projects into the slot 36 in the ball rest element 32 and serves to station or prevent the rotary movement of the ball rest element 32.

Positioned over the ball 35 and resting on the outer edge of the collar 38 is a ball socket cap 38, the lower end or skirt of which is rigidly attached to the collar element 321 by means of the cap screws 3| which pass through the collar 30 and are threaded into the lower end or skirt of the ball socket cap element 38. In the upper interior portion of the ball socket cap element 38 is a ball seat 39 that rests on the ball 35. The ball socket cap element 38 is provided with a slot 4 that extends from the center of the top of the ball socket cap element 38 to a point about ninety degrees down the side of the curved top of the ball socket cap element 38.

Rigidly mounted on the ball 35 is an outwardly projecting pin ii that slidably and revolvably passes through the slot 50 and projects therefrom. The outer end of the pin Al is adapted to detachably receive a work holdingelement 42. The plate 42 is detachably attached to the pin ll and therefore numerous types and designs of work holder devices may be employed and attached to the pin All. In the drawings the work holdin element is shown as a plate 42 having various sized and shaped holes 43 to fit various kinds of work that may be attached thereto.

Slidably mounted in the bore 2'3 of the standard 26 is a shaft Mi the upper end of which is provided with an adjustment comprised of a cap screw 45 that is threaded into the upper end of the shaft 44, there being a nut 68 threaded on the screw 45 and adapted to be screwed against the upper end of the shaft 44 as a means of locking the cap screw 45 in its adjusted position.

The head of the cap screw 45 is adapted to engage the bottom of the ball support element 32 for raising and lowering the ball support element 32 for purposes that will later be described. The lower end of the shaft M is provided with a ball seat in which is seated a ball 47.

The lower portion of the standard 26 is provided with a transversely positioned shaft '38 that is revolvably mounted in the standard 2%. Integrally formed on the inner end of the shaft 48 is an eccentrically positioned pin it that is provided with a curved bottom groove the outer edges of which engage and support the ball 4'3. Integrally formed on the outer end or the eccentric pin 39 is a second pin 5% that is in axial alignment with the shaft 48 and is revolvably seated in a bearing 52 formed by drilling a hole in the opposite side of the standard from that in which the shaft 48 is journalled so that by turning the shaft 48 the eccentric pin 49 eccentrically rotates and therefore moves the shaft td up or down which in turn moves the ball support element 32 up or down to rigidly bind the ball 35 between the two ball seats 3:3 and 3-3. The outer end of the shaft is provided with a handle element 53 by which the shaft 18 may he revolved. The foot or base element 25 is provided with holes 54 through which screws or bolts may be passed to fasten the work holder device to a bench top or other suitable support therefor.

The operation of the device shown in Figures 1 to '7 inclusive is as follows: The work, such as a carburetor, a timer, generator or starter, or any other piece of equipment that it is desirable to hold in some adjusted position so that it can be easily worked on, is rigidly attached to the holder plate 22 by means of bolts or clamps or other suitable means. This having been done the work may be revolved around the vertical axis of the standard 2%, it may also be rocked from any position from horizontal to vertical, and it may also be revolved to any desired point around the axis of the support pin 4!. The work having been adjusted to its desired position, selected from the movements above described, the handle 5-23 is rocked to turn the shaft 38 and thereby rock the eccentric pin 4% to its elevated position which in turn raises the push shaft i l to raise the ball support element 32 to rigidly ind and hold the ball 35 between the ball seats E i and the ball 35 in turn rigidly holding the pin 'll, work holder plate 42, and the work thereon in its adjusted position. When it is desired to change the position of the work the handle 53 is turned to turn the shaft 48 and eccentric pin to its lowered position, whereupon the push shaft 4 3 and ball support element 32 will be lowered to release the ball 35 from the grip of the ball seats 34 and 39, whereupon the work may be readjusted to any new desired position and relocked therein as above described.

In revolving the work about the vertical axis of the standard the ball socket cap 53 and collar 3i] will revolve and because of the pin 56 being in the slot ii! in the socket cap 38 the ball 35 will also revolve with the socket cap 38, but the ball support element 32 will remain stationary due to the pin 3'! being positioned in the slot 38 in the bottom of the ball support element 32. The work support pin 4| passing through the slot 3-9 is movable in the slot Ail from the horizontal to the vertical position, and the ball 35 and pin ll thereon are revolvable about the axis of the pin il, hence the work support plate supported by the pin ll may be placed in any universally selected adjusted position and then looked as above described.

The ball seats 3 1 and 555 being designed and situated as they are, engage the ball 35 on opposite sides in a pair of large concentric circles around a center axis passing through both circles. By the use of this arrangement the ball 35 may be more rigidly held with considerably less pressure on the ball support element 32 than was possible in my previous design in my Patent No. 2,354,937.

' The cap screw may be screwed in or out to shorten or lengthen the effective length of the push shaft 4:"; to where the most effective pressure may be applied to the ball support element 32 with the least revolving movement of' the shaft 43.

The ball 35, ball socket cap element 38 with all its details, the collar 36, and sleeve 28, and associated assembly on the standard 26 are identical in all the figures of the drawings and are as shown and above described.

In Figures 8 to 15 inclusive is shown a modification of the work holder device in which the device is hydraulically operated instead of mechanically operated. In this modification the standard 213 is provided with a bore in the upper part thereof which forms a cylinder. Connect-- ing with the bore and extending downwardly therefrom through the balance of the standard 25 is a small bore 56, the bottom end of which is provided with, or is closed, by a plug 57 that is threaded thereinto.

Integrally formed on the base 25 and joining with the standard is a raised rib like element 58 that is provided with a downwardly inclined bore or passage 59 the inner end of which connects with the vertical bore or passage 56. The outer end of the inclined passage 59 is enlarged and a short sleeve element '66 is pressed therein and a wing screw 5i is threaded through the sleeve 66. The sleeve .65] is rigidly held in place by means of a pin 52 that is passed through the rib like element 58 and a part of one side of the sleeve 66.

In the bore 58 is slidably positioned a plunger 63, the outer end of which is engaged by the inner end of the wing screw 5|. Resting against the inner end of the plunger 63 is a resilient cup 65 that is made of leather, rubber or any other suitable material.

In the cylinder 55 is a plunger element 65, the lower portion of which is provided with a bore 66. The lower end of the bore 56 is enlarged and a disc 61 is tightly pressed therein and functions. as a support or rest for the lower end of a coil spring 58. The upper end of the plunger 65 is provided with a depression 69 so that the upper edge of the plunger 65 around the depression 69 forms a ball seat E5 on which the ball 35 rests. The upper end of the plunger 65 is provided with a vertically positioned slot ll that extends well below the top of the bore 66. A pin 12 is passed through both sides of the collar 28 and both sides of the upper end of the standard 26 and is positioned in the slot ll of the plunger 65, and the upper end of the spring 68 engages and presses against the pin 72, the pin then serving several purposes; first, the pin '52 serves to rigidly lock the sleeve 26 on the upper end of the standard 26; second, the pin 12 serves as an element against which the upper end of the sprin 68 may push, third, the

pin 12 serves as an element to retain the plunger 65 in, and limit the upper movement of the plunger 65 in the cylinder 55; and fourth, the pin 12 prevents any rotary movement of the plunger 55. Beneath the plunger 55 and'engaging the bottom thereof is a resilient cup 13 that is made of leather, rubber or any other suitable material.

The cylinder 55, beneath the cup 13, and the passages 56 and 59 are filled with any suitable hydraulic liquid, preferably oil.

The operation of the device shown in Figures v8 to 15 inclusive is as follows: The work is attached tothe work holder device 6-2 on the pin 41. and moved to the desired adjusted position, the same as previously described; the work having been so positioned, the wing screw 6! is turned. to screwinwardly, whereupon the inner end of. the screw 6i pressesthe plunger 63; and cup 64. inwardly in the passage 56, part of the hydraulic liquid in the passages 59 and 56 is transferred and forced into the cylinder 55, whereupon the pressure therefrom will force the cup 73 and plunger 65 upwardly against the pressure of the spring 68 to rigidly-clamp and hold the ball 35 between the two ball seats 39 and 16 to rigidly hold the work in its adjusted position thesame as previously described.

Now if it is desired to change the position of the work, the wing screw 6! is screwed outwardly, whereupon the spring 58 will move the plunger 65 and cup 73 downwardly the distance permitted by the turning of the wing screw 64 and thereby release the pressure on the ball 65, whereupon the ball 35 and work support pin and plate ii-e42, and ball socket cap 38 and collar may be freely moved to any new position for holding the work in the new position. The work being repositioned, the wing screw 6| may again be screwed inwardly, whereupon the ball will again be clamped and rigidly held between the ball seats 39 and II! to rigidly hold the work in its readjusted position the same as previously described.

In case it is desired to drain or replenish the hydraulic liquid in the cylinder and passages 56 and 59, the device may be turned up side down and the plug 51 may be screwed from the end of the passage 56, whereupon the hydraulic liquid may be emptied or added to as desired. The amount of hydraulic liquid having been so adjusted, the plug 5'! may be replaced in the end of the passage 56 and the device is again ready for use.

In Figures 16 to 24 inclusive is shown a further improved hydraulically operated design of the work holder device. In this design the device has the work holder plate 42 mounted on the pin support 4i that is carried by the ball 35 that is adjustably mounted in the swivelly mounted ball socket cap 38 and is held in place by the collar 36 that is rigidly attached thereto and which revolvably underlies the sleeve 28 which is rigidly attached to the upper end of the standard 26, there being a ball support element 32 that is housed in the ball socket cap element 36 and resting on the upper ends of the sleeve 28 and standard 25, and on which rests the ball 35. The ball support element 32 is stationed against rotary movement by the pin 31 being rigidly mounted in the sleeve 23 and standard 26 and projecting therefrom into the slot 66 in the ball support element 32; All the foregoin mentioned parts and the assembly thereof are identical to those mentioned and described in the other figures of the drawings.

In the design, Figures 16 to 24 inclusive, the standard is shown as having the bore 55 in the upper end thereof which forms a cylinder from which downwardly extends the smallerbore or passage 56 to and through the foot or base element 25. In the lower end of the bore 56 is threaded a plug 51, the same as, and for the same purposes as previously described.

As shown in this design there is integrally formed on the-base element 25 and joining with the standard 26, two rib-like elements 58a and M that extend radially in opposite directions on the base 25 and from the standard 26.

In the rib-like element i6 is a bore or passage l6, the inner end of which connects with the passage 55. The outer end of the passage i6 is enlarged and a sleeve H is tightly pressed'therein and is rigidly held in place by means of a pin 18 that is passed through the rib-likeelernent i l and a part of one side of the sleeve H.

A wing screw '39 is threaded through the sleeve 1? and engages a plunger t ithat is slidably positioned in the outer end of the passage In the passage "l6 and resting against the inner end of the plunger 86 is a resilient cup element 8i that is made of leather, rubber or any other suitable material.

In the rib like element 56:! is a downwardly inclined passage 55a, the inner end of which connects with thevertical passage 56. In the outer portion cf the passage 59a is slidably positioned a plunger 82. In the passage 59a andresting against the inner end of the plunger 82 is a resilient cup 83 that is made ofleather, rubber or any other suitable material.

7 The outer end of the rib-like element 58a is provided with a slot 84 that is centered on and is in alignment with the center axis of the passage 5912.

In the slot 84 is a cam element 85 that is pivotally mounted on a pin 86 that is positioned on and traverses the center axis of the passage 59a and positions the cam 85 in engagement with the outer end of the plunger 82 so as to operate the plunger 82 as will later be described. Integrally formed on the cam 85 is a handle element 81 by which the cam 85 may be revolved or rocked to operate the plunger 82 as will later be described.

Slidably positioned in the upper portion of the cylinder 55 is a plunger element 88. Extending from the lower end of the plunger 83 to a point a little below the top end of the plunger 88 is a bore 89. verse elongated hole 60 for the reception of the pin 72 which passes through both sides of the sleeve 28 and the upper end of the standard 28 as well as the elongated hole ill] in the plunger 88. The lower end of the bore 89 is enlarged and a disc 9! is tightly pressed therein.

In the bore 89 is a compression spring t the upper end of which bears against the pin 72 and the lower end of which bears against the disc 9 I.

Beneath the plunger 88 and bearing against the bottom end of the plunger 88 and the disc 9| therein is a resilient cup as that is made of leather, rubber or any other suitable material.

The operation of the device as shown in Figures 16 to 24 inclusive is as follows; The work is placed on and attached to the work support plate 42 and the work moved to any desired position the same as previously described. The work having been so positioned, the cam handle 87 may be rocked downwardly to the position shown in Figures 1'? and 19, whereupon the plunger 32 and cup 83 are forced to move forward in the passage 5911 by the action of the cam 85 on the plunger 82, thereby causing part of the hydraulic liquid in the passages 59a, and 55 to be forced into the cylinder 55 which in turn presses against the cup 92 and forces the cup 92 and plunger 88 resting thereon to move upwardly against the pressure of the spring 65 and the load of the ball 35. In the upward movement of the plunger 88 the upper end of the plunger 88 engages and raises the ball support element 32 to rigidly bind and hold the ball 35 between the two ball seats 3H and 32 the same as previously described so as to hold the work in its adjusted position as described.

To release the work for readjustment, the cam lever Bl may be raised whereby the cam is rocked to a receding position, whereupon the spring 65 will move the plunger 88 downwardly releasing the pressure on the ball 35 so it is free to be moved, and at the same time forcing some of the hydraulic liquid out of the cylinder 55 through the passages 55 and 59a and move the cup 83 and plunger 82 rearwardly as will be permitted by the receded position of the cam 85.

The amount of throw of the lever and cam 81-85 required to cause the ball support element 32 to move up or down to clamp or release the ball 35 between the ball seats 3d and 39 may be adjusted by screwing the adjusting screw 79 in or out whereupon some of the hydraulic liquid in the passage will be forced into the passage 55, or some of the liquid in the passage 56 may be withdrawn into the passage 15, and therefore the throw of the lever 87 may be readily and quickly adjusted by the operator of the device.

At the top of the bore 89 is a trans- 8 Such modifications of my invention may be employed as lie within the scope of the appended claims without departing from the spirit and intention of the invention. Now having fully shown and described my invention what I claim is;

1. In a work holder device of the kind described; a base, a hollow standard carried by said base, a ball socket, said ball socket being revolvably mounted on the upper end of said standard, a ball support, said ball support being housed within said ball socket, said ball socket and ball support each having a narrow annular ball seat, a ball, said ball being positioned in the ball socket and between said ball seats, said socket having a slot therein and means movable in said slot and. rigidly mounted on said ball for carrying a work support element, plunger means operable within the hollow of said standard and engaging the ball support for lowering and raising the ball support to release or bind said ball in adjusted positions between said annular ball seats and means for adjusting the elevation of said plunger means in said standard relative to its operating means, said means for adjusting the elevation of said plunger means including a cylinder connected with said standard, a plunger slidably mounted in said cylinder, said cylinder being fillable with a hydraulic material, a screw and a finger hold on one end thereof, said screw being threadably carried in the outer end of said cylinder, the inner end of said screw engaging the plunger in said cylinder for movement thereof upon turning of the screw to actuate said plunger means through the movement of the hydraulic lnaterial in said cylinder to bind and hold the ball as described, said hollow in said standard being connected with the space in said cylinder; and spring means for urging the movement of the ball support member to release pressure on the ball for adjusting purposes.

2. In a work support device as defined in claim 1 and having a second cylinder, said second cylinder being connected with said first cylinder, the space in said second cylinder and said first cylinder and the hollow of said standard being connected, a, plunger in said second cylinder, and means engageable with said plunger in said second cylinder for moving said last mentioned plunger in said second cylinder, said movement of said second mentioned plunger being adapted for adjusting said ball.

3. In a work support device, in combination, a work holder; a ball; a pin rigidly mounted on said ball; a ball socket for releasably binding said ball, said ball socket including a cap having a skirt thereon, said cap having a slot therein, said slot extending substantially downwardly from the vertical axis at the top of said cap to a point on the side thereof, and a ball support element, said cap and said ball support element each having an annular ball seat thereon; said pin extending through said slot in said cap, said pin at one end thereof having said Work holder mounted thereon; said ball support element being slidably positioned within the skirt of said cap, said pin being rigidly supported on said ball and being movable in said slot; said ball being positioned in said socket and engageable on the surface thereof by said annular ball seats a hollow standard supporting said ball socket; a plunger slidable in said standard and adapted to engage said ball support element for the movement thereof to cause respective releasing and retention of said ball; spring means engaging said plunger for urging the downward movement of said plunger to release pressure on said ball support element; a shaft rotatably mounted in said standard; an eccentric pin carried on said shaft, said shaft and said eccentric pin having means for actuating said plunger, said plunger being supported by the eccentric pin; means whereby the length of said plunger may be adjusted and ball means intermediate said plunger and said eccentric pin for reducing the area of engagement of said pin and said plunger.

4. In a work support device, in combination, a work holder; a ball; a pin rigidly mounted on said ball; a ball socket for releasably binding said ball, said ball socket including a cap having a skirt thereon, said cap having a slot therein, said slot extending substantially downwardly from the vertical axis at the top of said cap to a point on the side thereof, and a ball support element, said cap and said ball support element each having an annular ball seat thereon; said pin extending through said slot in said cap, said pin at one end thereof having said work holder mounted thereon; said ball support element being slidably positioned within the skirt of said cap, said pin being rigidly supported on said ball and being movable in said slot; said ball being positioned in said socket and engageable on the surface thereof by said annular ball seats; a hollow standard supporting said ball socket; a plunger slidable in said hollow standard and adapted to engage said ball support element for the movement thereof to cause respective releasing and retention of said ball; spring means engaging said plunger for urging the downward movement of said plunger to release pressure on said ball support element; a cylinder connected to said standard, the space in said cylinder being communicatively connected to the hollow in said standard, said plunger being normally movable in the upper portions of the hollow in said standard; a second plunger movable in said cylinder; and means for adjusting said second plunger.

5. In combination, in a work holding device as recited in claim 4, a second cylinder, the space of said second cylinder being communicatively connected with the hollow of said standard and normally fillable with an hydraulic material; a third plunger in the outer end of said second cylinder; screw means for adjusting said third plunger, and wherein said means for adjusting said second plunger includes a cam engageable by the outer end of said second plunger, said second plunger being adapted to provide for releasing said ball from engagement for gross adjustments thereof, said plunger in said second mentioned cylinder being adapted to provide for releasing said ball for minute and fine adjustments thereof.

6. In a work holder device, in combination, a ball; a pin rigidly carried on said ball; a work holding element mounted on one end of said pin; a socket for said ball, said socket including a cap and a ball rest element, said cap and said ball rest element each having an annular ball seat therein; a hollow standard supporting said socket, said standard having a vertical space therein; a plunger slidable in said vertical space; a cylinder connected to said standard, the space of said cylinder being communicatively connected with the hollow of said standard; a second plunger slidably positioned in said cylinder, said first plunger being adapted to engage and disengage said ball rest to respectively grip and release said ball; means mounted on said cylinder for causing the movement of said second mentioned plunger; and spring means engaging said plunger for urging movement of said first mentioned plunger in order to release pressure on the ball.

7. In a work support device, the combination of a work holder, ,3, cap element and a ball support element forming a socket therebetween; a ball mounted in said socket and adapted to be engaged on the surface thereof and releasably retained in said socket; a standard adapted to support said ball support element and said cap, said standard having a vertical passage therein; a plunger slidably positioned in the passage in said standard; means for adjusting the elevation of said plunger in said standard; spring means engaging said plunger for urging the disengaging movement of said plunger with said ball support element, said plunger being adapted in some positions thereof to cause said ball socket to firmly grip said ball, said plunger in other positions thereof being adapted to cause a release of said ball by said socket to permit movement of said ball within said socket; said cap having a slot therein; and a pin at one end thereof rigidly mounted on said ball and at the other end thereof being adapted to support said work holder.

CLEMON W. BARKER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 198,176 Alexander Dec. 18, 1877 245,659 Renner, Jr Aug. 16, 1881 1,897,581 McNab Feb. 14, 1933 1,955,635 Kelly Apr. 17, 1934 2,354,937 Barker Aug. 1, 1944 FOREIGN PATENTS Number Country Date 458,112 France Oct. 3, 1913 661,086 France July 20, 1929 489,056 France Aug. 20, 1918 278,993 Italy Apr. 26, 1929 799,604 France Apr. 11, 1936 

